Abstract
The UN Sustainable Development Goals aim to minimize the adverse impacts of chemicals on human health and the environment by 2020. It is up to legislators to provide the appropriate framework conditions for such developments. In the case of nanomaterials , this task is however quite challenging, as risks of these substances to human health and the environment are to a great extent uncertain. In situations of such regulatory complexity, legislators can benefit from responsive governance approaches that take into account the actual incentive and impediment situation of the relevant actors to facilitate innovation behaviour that is directed at sustainable development. To this end, this article suggests an integrative governance perspective, based on institutional analysis , taking into account all relevant external framework conditions as well as behavioural settings of actors along the supply chain of nanomaterials .
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Notes
- 1.
UN General Assembly, Transforming our world: the 2030 Agenda for Sustainable Development, Resolution adopted by the General Assembly, 25.9.2015, A/70/L.1.
- 2.
Para. 13, 17 Agenda 2030.
- 3.
See UN General Assembly, Addis Ababa Action Agenda of the 3rd International Conference on Financing for Development, Resolution adopted by the General Assembly, 27.7.2015, A/RES/69/313 as well as references hereupon in para. 40, 62, 70 and 36 Agenda 2030.
- 4.
Para. 47 et seq., 72 et seq. Agenda 2030.
- 5.
This target refers to para. 23 of Johannesburg Declaration on Sustainable Development and Plan of Implementation of the World Summit on Sustainable Development, 26 August - 4 September 2002, South Africa.
- 6.
Para. 28 Agenda 2030.
- 7.
Para. 67 Agenda 2030, c.f. ibid. para. 28, 39, 52.
- 8.
Para. 28 and e.g. target 12.1 Agenda 2030.
- 9.
High-Level Group on Key Enabling Technologies 2011.
- 10.
E.g., the EU Horizon 2020 programme provides €13.557 billion for “Leadership in enabling and industrial technologies”, including nanotechnologies, see European Commission 2014, p. 9 et seq.
- 11.
Annex to Decision No 1386/2013/EU, 2013 OJ L. 354, p. 171.
- 12.
Calliess 2011, Art. 191 AEUV, para. 8.
- 13.
van Leeuwen 2007, p. 16.
- 14.
Savolainen, Backman, Brouwer et al. 2013.
- 15.
Recital 16 Decision No 1386/2013/EU; ibid, Annex, para. 50; target 12.4 of the UN Agenda 2030.
- 16.
Para. 50, 71(3) Annex to Decision No 1386/2013/EU.
- 17.
Para. 50, 54 lit.f. Annex to Decision No 1386/2013/EU.
- 18.
European Commission 2015, p. 20 et seq.
- 19.
No 2 Commission Recommendation 2011/696/EU, 2011 OJ L. 275, p. 38.
- 20.
For other characteristics refer to Commission Recommendation 2011/696/EU.
- 21.
Auffan, Rose, Bottero et al. 2009, p. 634.
- 22.
Steinfeldt, v. Gleich, Petschow et al. 2010.
- 23.
- 24.
Anses 2015, p. 28.
- 25.
Führ 2014, para. 46.
- 26.
- 27.
European Commission 2000, p. 15.
- 28.
Savolainen, Backman, Brouwer et al. 2013, p. 45.
- 29.
Such as the Globally Harmonized System of Classification and Labelling of Chemicals (GHS). In Europe GHS was implemented by the CLP Regulation, c.f. below.
- 30.
Grieger, Hansen and Baun 2009, p. 222.
- 31.
Wehling 2011, p. 536 et seq.
- 32.
A prominent example of this is the substance CFC whose unexpected ozone-depleting effect was recognized only decades later, see for this and further examples EEA 2001.
- 33.
European Commission 2012, p. 13.
- 34.
Krug, Wick, Nowack et al. 2013, p. 15.
- 35.
Nell, Xia, Meng et al. 2013, p. 607.
- 36.
Dupuy 2004, p. 16.
- 37.
C.f. Hussein 2015.
- 38.
- 39.
Führ and Bizer 2007.
- 40.
- 41.
North 1991.
- 42.
- 43.
For structuring the identification and analysis of factors it is useful to refer to the three behaviourally relevant categories motivation, capabilities and opportunities developed by Ashford 2000.
- 44.
The “principle that the polluter should pay” also forms one basis for EU policy on the environment, see Article 191(2) TFEU.
- 45.
Regulation (EC) No 1907/2006 concerning the Registration, Evaluation, Authorisation and Restriction of Chemicals (REACH). 2006 OJ L. 396 p. 1.
- 46.
Article 1(3) REACH.
- 47.
Regulation (EC) No 1272/2008 on classification, labelling and packaging of substances and mixtures, 2008 OJ L. 353, p. 1.
- 48.
- 49.
Articles 10(a), 12 and Annexes VI to XI REACH.
- 50.
As of 9.2.2016 the ECHA database of registered substances contains information from 53.231 dossiers on 13.876 unique substances (http://echa.europa.eu/de/information-on-chemicals/registered-substances).
- 51.
Derived No-Effect Level for effects toxic to humans.
- 52.
Predicted No-Effect Concentration for ecotoxic effects.
- 53.
Annex I, Sect. 6.4 REACH. In addition, “the likelihood and severity of an event occurring due to the physicochemical properties of the substance” has to be negligible.
- 54.
Articles 10(b), 14 and Annex I REACH.
- 55.
Article 31 REACH.
- 56.
Article 37 REACH.
- 57.
For a definition see Führ and Bizer 2007.
- 58.
Recital 86 REACH.
- 59.
Articles 7(2), 33, 55 et seq. REACH.
- 60.
Articles 67 et seq. REACH.
- 61.
Directive 2010/75/EU on industrial emissions (integrated pollution prevention and control) (Recast), 2010 OJ L. 334, p. 17, cor. 2012 OJ L. 158f, p. 25.
- 62.
Article 3(2) IPPC.
- 63.
Article 6(1) Directive 98/24/EC on the protection of the health and safety of workers from the risks related to chemical agents at work (CAD), 1998 OJ L. 131, p. 11.
- 64.
Article 2(c)(iii) CAD.
- 65.
Directive 96/82/EC on the control of major-accident hazards involving dangerous substances (Seveso II Directive), 1997 OJ L. 10, p. 13.
- 66.
Directive 2000/60/EC establishing a framework for Community action in the field of water policy (Water Framework Directive), 2000 OJ L. 327, p. 1.
- 67.
Articles 3(1), 2(a), 2(b) Directive 2001/95/EG on general product safety (GPS), 2002 OJ L. 11, p. 4.
- 68.
According to Article 3(3) REACH article “means an object which during production is given a special shape, surface or design which determines its function to a greater degree than does its chemical composition”.
- 69.
Such substance related rules are, however, to some extend not applicable to imported articles, see Führ and Schenten et al. 2015.
- 70.
See e.g. Art. 16 Regulation (EC) No 1223/2009 on cosmetic products, 2009 OJ L. 342, p. 59; Regulation (EU) No 528/212 concerning the making available on the market and use of biocidal products, 2012 OJ L. 167, p. 1; Regulation (EU) No 2015/2283 on novel foods, 2015 OJ L. 327/1, which stipulates specific rules for the authorisation of nanoscale “novel food” applies from 1 January 2018; until this date legal frameworks in the food sector generally lack appropriate rules for nanomaterials, see Schenten 2011.
- 71.
See examples in fn. 1047.
- 72.
Pronk, Wijnhoven, Bleeker et al. 2009, p. 13.
- 73.
Führ, Hermann, Merenyi et al. 2007, p. 18 et seq.
- 74.
- 75.
For a review of environmental legislation for the regulatory control of nanomaterials see Ganzleben, Pelsy, Hansen et al. 2011.
- 76.
According to Article 4(1) CAD, to determine and assess risk of hazardous chemical agents, the employer shall consider available information provided by the supplier, e.g. in the REACH SDS; Article 5(3) GPS Directive obliges producers and distributors to inform authorities of product risks to consumers provided they “know or ought to know [such risks], on the basis of the information in their possession; see also Recital 14 REACH.
- 77.
Articles 1, 2 Directive 85/374/EEC on the approximation of the laws, regulations and administrative provisions of the Member States concerning liability for defective products, 1985 OJ L. 210, p. 29 amended by Directive 1999/34/EC, 1999 L. 141, p. 20.
- 78.
Ibid, Article 6.
- 79.
Howells 2009.
- 80.
See e.g. Schenten and Führ 2011 on interlinks between duty of care in REACH and due diligence in German corporate law.
- 81.
COM(2011) 547 fin, 4.
- 82.
Meili 2010, p. 1187.
- 83.
SwissRe 2004; Mullins, Murphy, Baublyte et al. 2013, p. 222.
- 84.
Hett and Herold 2005, p. 25.
- 85.
For likely scenarios see Blaunstein, Trump and Linkov 2014, p. 259 et seq.
- 86.
Lobanov 2012.
- 87.
Andersson 2015.
- 88.
Gubbels, Pelkmans and Schrefler 2013, p. 3.
- 89.
Rossi 2014.
- 90.
See corresponding findings of the annual Eurobarometer at TNS Political & Social 2014, p. 11 and 39.
- 91.
- 92.
- 93.
Federal High Court of Justice as of 06–07-1990 - 2 StR 549/89; c.f. Schmidt-Salzer 1990, p. 2966 et seq.
- 94.
Lach and Burckhardt 2013, p. 253.
- 95.
See http://www.oecd.org/science/nanosafety/ (4.2.2016).
- 96.
- 97.
See above fn. 5.
- 98.
See Dubai Declaration on International Chemicals Management of 6 February 2006.
- 99.
See e.g. the approach introduced at http://www.coso.org/-erm.htm (29.2.2016).
- 100.
Pfister 2009, p. 127 et seq.
- 101.
- 102.
- 103.
Pfister 2009, p. 127 et seq.
- 104.
See Führ, Merenyi et al. 2005, p. 5 et seq.
- 105.
See e.g. the EU FP7 projects MARINA, MembraneNanoPart, MODERN, ModENPTox, NanoPUZZLES, NanoVALID, PreNanoTox.
- 106.
See e.g. the EU FP7 projects SUN, SANOWORK, NANOMICEX, NANOVALID, GUIDEnano, NANoREG II and ProSAFE.
- 107.
See e.g. the NanoRiskCat at http://nanodb.dk/en/nanoriskcat/ (29.2.2016) and the Swiss Precautionary Matrix at http://www.bag.admin.ch/nanotechnologie/12171/12174/index.html?lang=en (29.2.2016).
- 108.
- 109.
To some extent, FP 7 projects SUN, GUIDEnano and NANOSOLUTIONS are developing decision support systems, partly accompanied by practical tools.
- 110.
For such an approach see already Stone, Führ, Bizer et al. 2016.
- 111.
Führ and Bizer 2007.
- 112.
European Commission 2015.
- 113.
Purnhagen and Feindt 2015, p. 366 et seq.
Bibliography
Andersson, Anne-Sofie. 2015. Speech of ChemSec Director at the World Economic Forum, http://chemsec.org/news/news-2015/january-march/1404-chemsec-s-director-invited-to-meet-with-chemical-industry-ceos-at-world-economic-forum-today (4.2.2016).
Anses. 2015. Éléments issus des déclarations des substances à l’état nanoparticulaire – exercice 2015, rapport d’étude, www.developpement-durable.gouv.fr/document162330 (18.4.2016).
Ashford, Nicholas A. 2000. An Innovation-Based Strategy for a Sustainable Environment. In Innovation-Oriented Environmental Regulation: Theoretical Approach and Empirical Analysis, ed. Jens Hemmelskamp, Klaus Rennings, and Fabio Leone, 67–107. Heidelberg/New York: Springer.
Auffan, Mélanie, Jérôme Rose, Jean-Yves Bottero, et al. 2009. Towards a Definition of Inorganic Nanoparticles from an Environmental, Health and Safety Perspective. Nature Nanotech 4: 634–641.
Ayres, Ian, and John Braithwaite. 1992. Responsive Regulation. Oxford/New York: Oxford University Press.
Bizer, Kilian, and Martin Führ. 2015. Compact Guidelines: Practical Procedure in Interdisciplinary Institutional Analysis, sofia-Diskussionsbeiträge zur Institutionenanalyse Nr. 15–4, Darmstadt, http://www.sofia-darmstadt.de/fileadmin/Dokumente/Diskussion/2015/Netzversion_Compact_Guidelines.pdf (29.2.2016).
———. 2016. Sustainable Behavioral Governance: Responsive Regulation for Innovation. In New Perspectives for Environmental Policies Through Behavioral Economics, ed. Frank Beckenbach and Walter Kahlenborn, 277–300. Springer International Publishing.
Bizer, Kilian, Führ, Martin and Christoph Hüttig (eds.). 2002. Responsive Regulierung. Beiträge zur interdisziplinären Institutionenanalyse und Gesetzesfolgenabschätzung. Tübingen: Mohr Siebeck.
Blaunstein, Robert, Ben Trump, Igor Linkov. 2014. Nanotechnology Risk Management: An Insurance Industry Perspective. In Nanotechnology Environmental Health and Safety (2nd ed.). Risks, Regulation, and Management, eds. Matthew S. Hull and Diana M. Bowman. Amsterdam/Boston, Heidelberg et al.: Elsevier.
Calliess, Cristian, and Matthias Ruffert. 2011. EUV/AEUV. Das Verfassungsrecht der Europäischen Union mit Europäischer Grundrechtecharta. Beck: Munich.
CIEL, ECOS, Öko-Institut. 2015. Revision of REACH Annexes for Nanomaterials – Position Paper, http://www.ciel.org/wp-content/uploads/2015/10/Position-Paper-REACH-Annexes-Final.pdf (29.2.2016).
Dupuy, Jean-Pierre. 2004. Complexity and Uncertainty. In A Prudential Approach to Nanotechnology, A Contribution to the Work in Progress of the “Foresighting the New Technology Wave” HighLevel Expert Group. European Commission: Brussels.
ECHA. 2012. Information Requirements and Chemical Safety Assessment, Chapter R.19: Uncertainty analysis, Vers. 1.1, Helsinki, http://echa.europa.eu/documents/10162/13632/information_requirements_r19_en.pdf (22.5.2015).
EEA. 2001. Late Lessons from Early Warnings: The Precautionary Principle 1896–2000, Environmental Issue Report No 22, Copenhagen, http://www.eea.europa.eu/publications/environmental_issue_report_2001_22/Issue_Report_No_22.pdf (22.5.2015).
European Commission. 2000. Communication on the Precautionary principle, COM(2000)1, Brussels.
———. 2008. Follow-up to the 6th Meeting of the REACH Competent Authorities for the implementation of Regulation (EC) 1907/2006 (REACH), Nanomaterials in REACH, CA/59/2008 rev. 1, http://ec.europa.eu/enterprise/sectors/chemicals/files/reach/nanomaterials_en.pdf (25.5.2015).
———. 2009. Classification, labelling and packaging of nanomaterials in REACH and CLP, Doc.CA/90/2009, http://ec.europa.eu/enterprise/sectors/chemicals/files/reach/nanos_in_reach_and_clp_en.pdf (25.5.2015)
———. 2012. SWD(2012) 288 final, Commission Staff Working Paper, Types and uses of nanomaterials, including safety aspects. Accompanying the Communication from the Com-mission to the European Parliament, the Council and the European Economic and Social Committee on the Second Regulatory Review on Nanomaterials {COM(2012) 572 final}, Brussels.
———. 2014. HORIZON 2020 in brief. The EU Framework Programme for Research & Innovation, Luxembourg, http://ec.europa.eu/newsroom/horizon2020/document.cfm?action=display&doc_id=4752 (29.2.2016).
———. 2015. SWD(2015) 111 Final. Better Regulation Guidelines, Strasbourg: Commission Staff Working Document.
Führ, Martin. 2014. §4 Technikrecht. In Europäische Querschnittspolitiken, Enzyklopädie Europarecht, ed. Bernhard W. Wegener, Vol. 8. Baden-Baden: Nomos.
Führ, Martin, and Julian Schenten et al. 2015. Enhancement of the REACH requirements for (imported) articles. Options for improvement of the chemicals regulation, ed. Umweltbundesamt (German Environment Agency). Dessau-Roßlau, https://www.umweltbundesamt.de/sites/default/files/medien/378/publikationen/texte_41_2015_enhancement_of_the_reach_requirements_for_imported_articles_0.pdf (29.2.2016).
Führ, Martin, and Kilian Bizer. 2007. REACh as a Paradigm Shift in Chemical Policy – Responsive Regulation and Behavioural Models. Journal of Cleaner Production 15(4): 327–334.
Führ, Martin, and Merenyi, Stefanie et al. 2005. Interface Problems between EC Chemicals Law and Sector-Specific Environmental legislation (IPPC/WFD), ed. Umweltbundesamt (German Environment Agency). Dessau, https://www.umweltbundesamt.de/sites/default/files/medien/publikation/long/2953.pdf (29.2.2016).
Führ, Martin, and Andreas Hermann, Stefanie Merenyi et al. 2007. Legal appraisal of nano technologies. Existing legal framework, the need for regulation and regulative options at a European and a national level, ed. Umweltbundesamt (German Environment Agency). Dessau, http://www.sofia-darmstadt.de/fileadmin/Dokumente/Studien/2007/ReNaTe_UBA_10-07_en.pdf (29.2.2016).
Gaia. 2012. Study on REACH contribution to the development of emerging technologies, Final Report, http://ec.europa.eu/enterprise/sectors/chemicals/files/reach/review2012/emerg-techn-final-report_en.pdf (21.5.2015).
Ganzleben, Catherine, and Florent Pelsy, Steffen F. Hansen et al., 2011: Review of Environmental Legislation for the Regulatory Control of Nanomaterials, www.ec.europa.eu/environment/chemicals/nanotech/pdf/review_legislation.pdf (25.5.2015).
Grieger, Khara D., Steffen F. Hansen, and Anders Baun. 2009. The Known Unknowns of Nanomaterials: Describing and Characterizing Uncertainty Within Environmental, Health and Safety Risks. Nanotoxicology 3(3): 222–233.
Gubbels, Ineke, Jacques Pelkmans, and Lorna Schrefler. 2013. REACH: A killer whale for SMEs? CEPS Policy Briefs No. 307.
Hett, Annabelle, and Daniela Herold. 2005. Die Nanotechnologie im Blick der Versicherungswirtschaft. GAIA 14(1): 24–27.
High-Level Group on Key Enabling Technologies. 2011. Final Report, ed. European Commission, http://ec.europa.eu/enterprise/sectors/ict/files/kets/hlg_report_final_en.pdf (21.5.2015).
Howells, Geraint. 2009. Product Liability for Nanotechnology. J Consum Policy 32: 381–391.
Hussein, Ahmed Kadhim. 2015. Applications of Nanotechnology in Renewable Energies—A Comprehensive Overview and Understanding. Renewable and Sustainable Energy Reviews 42: 460–476.
Ivec, Mary, and Braithwaite, Valerie. 2015. Applications of Responsive Regulatory Theory in Australia and Overseas: Update (March 2015). RegNet Occasional Paper 23; RegNet Research Paper No. 2015/72.
Krug, Harald, Peter Wick, Bernd Nowack et al. 2013. Human- und Ökotoxizität synthetischer Nanomaterialien. Erste Erkenntnisse für die Störfallvorsorge. Bundesamt für Umwelt, Bern. Umwelt-Wissen Nr. 1301: p. 43.
Lach, Sebastian, and Markus Burckhardt. 2013. Steigende strafrechtliche Haftungsrisiken für Chemieunternehmen und einzelne Verantwortliche in Europa – ein Überblick. StoffR 6: 253–257.
Lobanov, Alexey. 2012. Current Trends in Prudential Regulation of Market Risk: From Basel I to Basel III. In Market Risk and Financial Markets Modelling, ed. Didier Sornette, Sergey Ivliev, and Hilary Woodard, 129–139. Berlin and Heidelberg: Springer.
Meili, Christoph. 2010. Sind Nanotechnologien versicherbar? Versicherungswirtschaft 17: 1187–1188.
Mullins, Martin, Finbarr Murphy, Lijana Baublyte, et al. 2013. The Insurability of Nanomaterial Production Risk. Nature Nanotech 8: 222–224.
Nell, Andre, Tian Xia, and Huan Meng. 2013. Nanomaterial Toxicity Testing in the 21st Century: Use of a Predictive Toxicological Approach and High-Throughput Screening. Accounts of Chemical Research 46(3): 607–621.
North, Douglass C. 1991. Institutions. The Journal of Economic Perspectives 5: 97–112.
NRC 1983: Risk Assessment in the Federal Government: Managing the Process, Washington, http://www.nap.edu/openbook.php?isbn=0309033497 (22.5.2015).
Pfister, Jan A. 2009. Managing Organizational Culture for Effective Internal Control, Contributions to Management Science. Berlin and Heidelberg: Springer.
Pronk M.E.J., S.W.P. Wijnhoven, E.A.J. Bleeker et al. 2009. Nanomaterials Under REACH. Nanosilver as a Case Study, RIVM Report 601780003, Bilthoven.
Purnhagen, K., and Peter H. Feindt. 2015. Better Regulatory Impact Assessment. Making Behavioural Insights Work for the Commission's New Better Regulation Strategy. European Journal of Risk Regulation 3: 361–368.
Rossi, Mark. 2014. The Business Case for Knowing Chemicals in Products and Supply Chains. A publication in support of the SAICM emerging policy issue of Chemicals in Products, http://unep.org/chemicalsandwaste/Portals/9/CiP/Documents/CiPBusinessCase_Advance.pdf (29.2.2016).
Savolainen, Kai, Ulrika Backman, Derk Brouwer et al. 2013: Nanosafety in Europe 2015–2025: Towards Safe and Sustainable Nanomaterials and Nanotechnology Innovations, Helsinki, http://www.ttl.fi/en/publications/Electronic_publications/Nanosafety_in_europe_2015-2025/Documents/nanosafety_2015-2025.pdf (21.5.2015).
Schenten, Julian. 2011. Nanomaterials and European Novel Food Law: The Uncertain Path to Reasonable Regulation. elni Review 1: 8–14.
———. 2016. Novellierung der Stoffidentifizierung von Nanomaterialien in REACH – Analyse und Bewertung des „Non-Papers“ der Europäischen Kommission Zeitschrift für Stoffrecht 1: pp. 15–22.
Schenten, Julian, and Martin Führ. 2011. Sorgfaltspflichten der Unternehmensleitung (chapter 28). In Praxishandbuch REACH, ed. Martin Führ. Carl Heymanns: Cologne.
———. 2012. Law and Innovation in the Context of Nanomaterials: Barriers to Sustainable Development? Results of an empirical study. elni Review 2: 83–91.
Schmidt-Salzer, Joachim. 1990. Strafrechtliche Produktverantwortung. Das Lederspray-Urteil des BGH. NJW 47: 2966–2972.
SRU (German Advisory Council on the Environment). Vorsorgestrategien für Nanomaterialien, Sondergutachten, Berlin.
Steinfeldt, Michael, Arnim v. Gleich, Ulrich Petschow, et al. 2010. Environmental Relief Effects through Nanotechnological Processes and Products, ed. Dessau-Roßlau: Umweltbundesamt (German Environment Agency).
Stone, Vicky, Martin Führ, Kilian Bizer et al. 2016. The Essential Elements of a Risk Governance Framework for Current and Future Nanotechnologies (submitted).
SwissRe. 2004. Nanotechnology. Small Matter, Many Unknowns. Risk Perception series. Zurich, http://go.nature.com/9Dk87t (25.5.2015).
TNS Political & Social. 2013: Flash Eurobarometer 361. Chemicals, http://ec.europa.eu/public_opinion/flash/fl_361_en.pdf (22.5.2015).
van Leeuwen, Cornelius J. 2007. General Introduction. In Risk Assessment of Chemicals. An Introduction, ed. id./Theo G. Vermeire. Pp. 1–36. Dordrecht: Springer.
Wehling, Peter. 2011. Vom Risikokalkül zur Governance des Nichtwissens. Öffentliche Wahrnehmung und soziologische Deutung von Umweltgefährdungen. In Handbuch Umweltsoziologie, ed. Matthis Groß, 529–548. Wiesbaden: VS Verlag für Sozialwissenschaften, Springer.
WHO. 2013. Nanotechnology and human health: Scientific evidence and risk governance. Report of the WHO expert meeting 10–11 December 2012, Bonn, Germany, WHO Regional Office for Europe, Copenhagen, http://www.euro.who.int/__data/assets/pdf_file/0018/233154/e96927.pdf?ua=1 (21.5.2015).
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Schenten, J., Führ, M., Bizer, K. (2017). Overcoming Nanomaterial Uncertainties: A Responsive Governance Framework. In: Mathis, K., Huber, B. (eds) Environmental Law and Economics. Economic Analysis of Law in European Legal Scholarship, vol 4. Springer, Cham. https://doi.org/10.1007/978-3-319-50932-7_11
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